The role of IL-5 and allergen-specific IgE in the development of eosinophilic airway inflammation and airway hyperresponsiveness (AHR) was investigated in a murine model. BALB/c mice were sensitized to ovalbumin (OVA) by intraperitoneal injection on Days 1 and 14, followed by airway challenge with OVA on Days 28 and 29. Anti-IL-5 (TRFK-5) or anti-IgE (antibody 1-5) was administered before each airway challenge. Sensitized and challenged mice developed increased OVA-specific IgE serum levels, Th2 cytokine production by peribronchial lymph node (PBLN) cells, increased numbers of eosinophils (predominantly located in the peribronchial regions of the lungs), and increased airway responsiveness to methacholine (MCh). Anti-IgE treatment significantly decreased serum anti-OVA IgE levels and prevented the development of anaphylaxis but failed to affect T cell function, eosinophil airway infiltration, and AHR in sensitized and challenged mice. In contrast, treatment with anti-IL-5 antibody did not affect B cell (Ig serum levels), T cell (cytokine production), or mast cell function (immediate cutaneous reactivity) but completely inhibited development of eosinophilic lung inflammation and AHR. These data identify IL-5-mediated eosinophilia as a major target for development of AHR in this model, with little effect resulting from neutralization of IgE.
T cells play a crucial role in antibodymediated and antibody-independent immunity against Plasmodium falciparum malaria. Therefore, a vaccine immunogen should include parasite-derived B-and T-cell epitopes capable of giving rise to protective responses in both systems. The P.falciparum antigen PfI55/ring-infected erythrocyte surface antigen (RESA), a vaccine candidate, contains immunodominant T-and B-cell epitopes located in the central (5') and C-terminal (3') invariant repeat regions of the molecule. To relate Pfl55/RESA-peptide-specific responses of T cells to function, T cells from P. fakciparum immune donors were activated with peptides corresponding to these immunodominant regions. Activation was measured as induction of interferon-y secretion, T-cell proliferation (DNA synthesis), or transcription and translation of interleukin 4 (IL-4) mRNA.Peptides from both regions were shown to induce interferon-y, IL-4, proliferation, or any combination. In individual donors, there was no correlation between these different activities. Rather, they were negatively correlated, demonstrating the importance of examining multiple parameters of T-cell activation when estimating the proportion of individuals responding to a given epitope. However, IL-4 mRNA and intracellular IL-4 could be induced in T cells of donors who had elevated concentrations ofserum antibodies to the same peptide that was used for T-cell activation. These results suggest that a causal relationship exists between the activation of IL-4-producing T-cell subsets and production of the anti-Pf155/RESA-specific antibodies in individuals in which immunity has been induced by natural infection. This finding has implications that should be considered for the selection of immunogens to be included in a future P. falciparum subunit vaccine and for vaccine development in general.
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